Instructions to use NeuronZero/MRI-Reader with libraries, inference providers, notebooks, and local apps. Follow these links to get started.
- Libraries
- Transformers
How to use NeuronZero/MRI-Reader with Transformers:
# Use a pipeline as a high-level helper from transformers import pipeline pipe = pipeline("image-classification", model="NeuronZero/MRI-Reader") pipe("https://huggingface.co/datasets/huggingface/documentation-images/resolve/main/hub/parrots.png")# Load model directly from transformers import AutoImageProcessor, AutoModelForImageClassification processor = AutoImageProcessor.from_pretrained("NeuronZero/MRI-Reader") model = AutoModelForImageClassification.from_pretrained("NeuronZero/MRI-Reader") - Notebooks
- Google Colab
- Kaggle
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tags:
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- image-classification
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- medical
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widget:
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- src: https://huggingface.co/datasets/mishig/sample_images/resolve/main/tiger.jpg
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example_title: Tiger
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- src: https://huggingface.co/datasets/mishig/sample_images/resolve/main/teapot.jpg
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example_title: Teapot
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- src: https://huggingface.co/datasets/mishig/sample_images/resolve/main/palace.jpg
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example_title: Palace
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datasets:
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- sartajbhuvaji/Brain-Tumor-Classification
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license: apache-2.0
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language:
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- en
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pipeline_tag: image-classification
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license: apache-2.0
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tags:
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- vision
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- image-classification
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datasets:
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language:
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pipeline_tag: image-classification
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# MRI-Reader(small-sized model)
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MRI-Reader is a fine-tuned version of [swin-base](https://huggingface.co/microsoft/swin-base-patch4-window7-224-in22k). It was introduced in this [paper](https://arxiv.org/abs/2103.14030) by Liu et al. and first released in this [repository](https://github.com/microsoft/Swin-Transformer).
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## Model description
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The Swin Transformer is a type of Vision Transformer. It builds hierarchical feature maps by merging image patches (shown in gray) in deeper layers and has linear computation complexity to input image size due to computation of self-attention only within each local window (shown in red). It can thus serve as a general-purpose backbone for both image classification and dense recognition tasks. In contrast, previous vision Transformers produce feature maps of a single low resolution and have quadratic computation complexity to input image size due to computation of self-attention globally.
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[Source](https://paperswithcode.com/method/swin-transformer)
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### How to use
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Here is how to use this model to classify an image of the COCO 2017 dataset into one of the 1,000 ImageNet classes:
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```python
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from transformers import AutoImageProcessor, SwinForImageClassification
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from PIL import Image
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import requests
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url = "http://images.cocodataset.org/val2017/000000039769.jpg"
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image = Image.open(requests.get(url, stream=True).raw)
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processor = AutoImageProcessor.from_pretrained("microsoft/swin-base-patch4-window7-224-in22k")
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model = SwinForImageClassification.from_pretrained("microsoft/swin-base-patch4-window7-224-in22k")
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inputs = processor(images=image, return_tensors="pt")
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outputs = model(**inputs)
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logits = outputs.logits
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# model predicts one of the 1000 ImageNet classes
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predicted_class_idx = logits.argmax(-1).item()
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print("Predicted class:", model.config.id2label[predicted_class_idx])
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```
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